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Main Authors: Andrade, Natalia A. Gutierrez, Nie, Yunfeng, Meulebroeck, Wendy, Ottevaere, Heidi
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2410.12440
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author Andrade, Natalia A. Gutierrez
Nie, Yunfeng
Meulebroeck, Wendy
Ottevaere, Heidi
author_facet Andrade, Natalia A. Gutierrez
Nie, Yunfeng
Meulebroeck, Wendy
Ottevaere, Heidi
contents Microplastics are pervasive pollutants that pose threats to the environment and human health. Detecting them reliably represents a crucial step toward finding solutions. While traditional techniques like vibrational and mass spectroscopies are time-consuming and have limitations in analysing polymers with pigment additives, surface plasmon resonance (SPR) shows promise due to its high sensitivity and rapid detection capabilities.However, existing SPR methods rely on one output variable and fail to determine various microplastic parameters simultaneously. To address this uncertainty between size and polymer type, we propose a prism design that enables SPR resonance in a refractive index range of 1.402-1.56 RIU (Refractive Index Units) for polymer detection. Experimental verification of the prism's dynamic range using refractive index oils presented an agreement of 98.47% with theoretical analysis. Furthermore, we acquired SPR curves from ten different polymer types, including Nitrile, Viton and Tyre rubber. These results demonstrate SPR's potential to identify polymers and its ability to detect even pigmented materials, often challenging for other techniques. The imaging capabilities of the novel prism are presented, indicating its potential for future imaging of microplastics. Our approach holds promise for advancing microplastics analysis by enabling comprehensive assessment of particle parameters, such as polymer type, size, quantity and shape, and expanding the range of detectable polymer types.
format Preprint
id arxiv_https___arxiv_org_abs_2410_12440
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Surface plasmon resonance sensor based on a novel prism for the detection of a broad range of polymers
Andrade, Natalia A. Gutierrez
Nie, Yunfeng
Meulebroeck, Wendy
Ottevaere, Heidi
Instrumentation and Detectors
Microplastics are pervasive pollutants that pose threats to the environment and human health. Detecting them reliably represents a crucial step toward finding solutions. While traditional techniques like vibrational and mass spectroscopies are time-consuming and have limitations in analysing polymers with pigment additives, surface plasmon resonance (SPR) shows promise due to its high sensitivity and rapid detection capabilities.However, existing SPR methods rely on one output variable and fail to determine various microplastic parameters simultaneously. To address this uncertainty between size and polymer type, we propose a prism design that enables SPR resonance in a refractive index range of 1.402-1.56 RIU (Refractive Index Units) for polymer detection. Experimental verification of the prism's dynamic range using refractive index oils presented an agreement of 98.47% with theoretical analysis. Furthermore, we acquired SPR curves from ten different polymer types, including Nitrile, Viton and Tyre rubber. These results demonstrate SPR's potential to identify polymers and its ability to detect even pigmented materials, often challenging for other techniques. The imaging capabilities of the novel prism are presented, indicating its potential for future imaging of microplastics. Our approach holds promise for advancing microplastics analysis by enabling comprehensive assessment of particle parameters, such as polymer type, size, quantity and shape, and expanding the range of detectable polymer types.
title Surface plasmon resonance sensor based on a novel prism for the detection of a broad range of polymers
topic Instrumentation and Detectors
url https://arxiv.org/abs/2410.12440